Cup with a fountain

ABSTRACT

The present invention relates to a cup or a drinking container and in particular, to a drinking cup a spouting-water and lighting effect during drinking. The cup comprises a liquid container, a liquid output pipe, a spray pipe, a lighting circuit, etc, characterized in that the spray pipe inserts between the top of the liquid container and the bottom of a liquid storage, a water ion switch is supplied inside the spray pipe and just at the middle part of it, a liquid output pipe is led out from the liquid storage. The present invention has a simple configuration and a spouting water and lighting effect compared with the prior art.

BACKGROUND OF THE PRESENT INVENTION

1. Field of Invention

The present relates to a kind of cup or drinking container, and more particularly, relates to a drinking mug having illuminated fountain so that when a user is sipping the water via a straw, the fountain is capable of being activated with illumination effect.

2. Description of Related Arts

For user's convenience and enjoyment, the drinking mug is embodied as a sealed container for reserving liquid, such as water, wherein a straw or a sucker is integrally built-in within the container, or inserted into the container to extend the straw from the lower portion of the container to outside. That is to say, during a drinking process, the liquid of the container could be sucked out via the straw, and the air could be exchanged into the container instead. However, there are no other functions applied on such drinking mug.

It is highly desirable to develop a drinking mug which is not only capably of facilitating the drinking process, but also having illuminative fountain so as to enhance the user's enjoyment.

SUMMARY OF THE PRESENT INVENTION

A primary object of the present invention is to provide a drinking mug having illuminative fountain so as to facilitate the user's enjoyment.

Accordingly, to achieve above object, the present invention provides a drinking mug, comprising a liquid container for reserving a predetermined volume of liquid, a liquid output duct, a spray pipe, and an illuminating electrical circuit, wherein the spray pipe is disposed at an upper portion of the container for communicating the liquid container to a liquid storage, and a water ionic switch is provided at a middle portion of the spray pipe, the liquid output duct is extended to outside from the liquid storage.

According to the present invention, two end points of the water ionic switch are respectively disposed within two sides of the spray pipe, and are further leaded into a seal chamber located between the liquid storage and top cover ff the liquid container, wherein a trigger input is disposed therein for coupling the end points. The trigger input is transmitted into the flip-flop circuit via an amplified circuit so as to manage the illumination of an emitting diode. The spray pipe disposed on the upper portion of the liquid container is inserted into a cylinder in which a sealed illuminating electrical circuit is embedded therein. Furthermore, a round pipe is telescoped into the cylinder, wherein the round pipe is communicated with the spray pipe disposed at the upper portion of the liquid container.

Here, the upper portion of the liquid container is convexly curved and integrally formed with the liquid storage, wherein a port is defined on the central portion of such convexly curved upper container, and the spray pipe is inserted into such port to communicate with the liquid storage. Preferably, the upper end of the spray pipe is defined as projected inserter, which is correspondingly mating with a recessed socket defined at the convexly curved upper portion of the liquid container. Accordingly, the cross section of the inner diameter of the spray pipe is downwardly and gradually increased, and a liquid exit is defined on the very top end of such spray pipe.

According to the present invention, the spray pipe is an elongated straight pipe and is inserted into the liquid container through the port defined on the convexly curved upper potion of the container, the faucet of the spray pipe is conically defined and is integrally extended from the upper portion of the container. The apex of such conical shaped pipe has an orifice defined thereon. It is noted that after the spray pipe is inserted into the liquid storage, the spray pipe would be disposed at a bottom surface of the liquid storage, and its faucet is adapted to couple with spray header or a horn header.

According to the present invention, the cavity of the liquid storage is smaller than the cavity of the liquid container, and the liquid outputting duct is removeably connected to the side edge of the bottom surface of the liquid storage, and such liquid output duct is inserted into a flat cylinder snob, wherein a sphere body is coupled to the flat cylinder snob, and is sealedly inserted into the liquid storage, wherein the sphere body is communicated with the liquid outputting duct. The liquid output duct is defined as spiral shaped duct, having a top exit with an elevation higher than a height of the liquid storage.

Compared with the prior art, the drinking mug of the present invention has a relatively simple structure, and facilitated with supplemental functions, such as fountain and illumination.

These and other objectives, features, and advantages of the present invention will become apparent from the following detailed description, the accompanying drawings, and the appended claims.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a front sectional view of the drinking mug with an illuminating fountain according to the preferred embodiment of the present invention.

FIG. 2 is a schematic view of the liquid output duct according to the preferred embodiment of the present invention.

FIG. 3 is an electrical diagram of the illumination circuit according to the preferred embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

Referring to the FIG. 1 and FIG. 2, the drinking mug with illuminating fountain according to the preferred embodiment of the present invention is illustrated. The drinking mug comprises a liquid container 1, a liquid output duct 2, a liquid storage 3, an electrical switch 4, an top cover 5, an illuminating circuit 6, and a spray pipe 8, wherein the liquid container 1 is disposed underneath the liquid storage 3 and coupled to the liquid storage 3, a ventilating slot 14 is defined on the liquid container 1, the top portion of the liquid storage 3 is sealedly coupled the top cover 5. It is noted that the liquid container I and the liquid storage 3 are separated with a curved separating member 11, which is inwardly and integrally projected into the liquid storage 3. There is a port defined at a bottom side of the separating member 11 for communicating the liquid container 1 and the liquid storage via the spray pipe 8. The upper end of the spray pipe 8 is defined as projected inserter which is correspondingly matching with a recessed shaped socket defined at the curved separating member 11, which in turn disposed at the upper portion of the liquid container 1. The inside diameter of spray pipe 8 is downwardly and gradually reduced, and a water exit 9 is defined at the every top end of such spray pipe 8. Or otherwise, the spray pipe 8 is straight defined and directly inserted into the port opened at the central portion of the separating member 11. Or otherwise, the port provided at the central portion of the separating member 11 could be conically shaped, and the water exit 9 could be defined at the apex of such conical port. The spray pipe 8 is inserted into the bottom surface of the liquid storage 3, and the faucet of the spray pipe 8 could be coupled to a spray head or horn head. There is a water ionic switch 4 provided at a middle portion of the spray pipe 8, and a liquid output duct is extended from the liquid storage.

According to the present invention, two end points of the water ionic switch 4 are respectively attached onto two sides of the spray pipe 8, wherein the end points are directed into a seal chamber disposed at an upper portion of the liquid storage, wherein a trigger input of the illuminating circuit 6 is provided for coupling the end points. Furthermore, the trigger input is amplified to a flip-flop circuit IC so as to control an emitting diode to perform an illumination. There is a cylinder 4 disposed within the seal chamber 7, wherein a round pipe 15 is telescoped into the cylinder 4, and the round pipe 15 is coupled to spray pipe 8, such that the spray pipe 8 could be inserted into the cylinder 4 wherein the sealed illuminating circuit is provided therein.

The inside cavity of the liquid storage 3 is relatively smaller than that of the liquid container 1, and the bottom side edge 12 of the inner cavity of such liquid storage 3 is connected to the liquid output duct 2. it is noted that the liquid output duct 2 is moveably coupled to the side edge 12 for ensuring the liquid output duct being rotatably inserted into the liquid storage 3. The liquid output duct 2 is inserted into a flat cylinder shaped knob 10, wherein a sphere body 13 is laterally connected to such flat cylinder shaped knob, and the sphere body 13 is sealedly inserted into the liquid storage 13 via sealing gasket. As a result, by manually rotating such flat cylinder knob, the liquid output duct 2 could be pivotally rotated with respect to the fluid container 1. Here, the liquid output duct is a spiral shaped pipe entwined at an outside of the liquid storage 3. It is worth to mention that the exit of the liquid output duct is defined at an elevation higher than the height of the liquid storage 3.

Whenever the liquid output duct 2 was sucked by a user, the suction pressure of the liquid storage would be significantly increased, as a result, the liquid reserved within the liquid container 1 would be upwardly flowed along the spray pipe 8 as well. During such flowing process, two end points of the water ionic switch defined at two sides of the spray pipe would be electrically conducted. Therefore the triggering signal would be directed into the trigger input of illumination circuit provided within the seal chamber 7 of the liquid storage 3. Finally, the trigger input would be amplified and transmitted into the flip-flop circuit IC so as to manage the illumination of the emitting diode.

What is more, since the inner diameter of the spray pipe 8 is downwardly and gradually increased, and a port 9 is defined at the very top end of the spray pipe 8, a pressure difference would be generated at the top end of the spray pipe 8, thus forcing the water flowing at the top end of the spray pipe to be abruptly splashed to form a fountain. The spiral shaped liquid output duct further facilitates the fountain effects. It is noted the spiral shaped liquid output duct 2 is adapted to lead liquid flowing to the upper portion of the mug body, wherein the water exit is defined at an elevation higher than a height of the mug body for ensuring a user comfortably suck the liquid from the liquid output duct 2.

As shown in FIG. 3, the trigger inputs of the water ionic switch is filtered first via a capacity C104, and then send to the triode amplifying circuit 9014, which in turn send the amplified signal to flip-flop circuit IC through collector electrode of the triode. The outputting terminals L1, L2, L3 are adapted to control the emitting diode to illuminate.

One skilled in the art will understand that the embodiment of the present invention as shown in the drawings and described above is exemplary only and not intended to be limiting.

It will thus be seen that the objects of the present invention have been fully and effectively accomplished. Its embodiments have been shown and described for the purposes of illustrating the functional and structural principles of the present invention and is subject to change without departure form such principles. Therefore, this invention includes all modifications encompassed within the spirit and scope of the following claims. 

1. A drinking mug with fountain, comprising a liquid container for reserving a predetermined volume of liquid, a liquid output duct, a spray pipe, and an illuminating electrical circuit, wherein said spray pipe is disposed at an upper portion of said liquid container for communicating said liquid container to a liquid storage, and a water ionic switch is provided within a middle portion of said spray pipe, said liquid output duct is extended outside from said liquid storage.
 2. The drinking mug with fountain, as recited in claim 1, wherein said water ionic switch has two end points respectively disposed at two sides of said spray pipe, and further leaded into a seal chamber defined between said liquid storage and a top cover of said drinking mug to electrically couple with a trigger input of said illumination electrical circuit.
 3. The drinking mug with fountain, as recited in claim 2, wherein said trigger input is transmitted into a flip-flop electrical circuit IC via an amplified circuit so as to control an illumination of an emitting diode.
 4. The drinking mug with fountain, as recited in claim 1, 2, and 3, further comprising a cylinder inserted into said upper portion of said liquid container, and said illumination electrical circuit is sealed embedded into said cylinder, and a round pipe is telescoped into said cylinder, wherein said round pipe is communicated with said spray pipe provided at said upper portion of said liquid container.
 5. The drinking mug with fountain, as recited in claim 1, wherein said upper portion of said liquid container is curvedly shaped and integrally formed with said liquid storage, a port is defined at a center of said upper portion for connectively inserting said spray pipe and communicating said liquid storage.
 6. The drinking mug with fountain, as recited in claim 5, wherein an upper end of said spray pipe is defined as a projected inserter, which is correspondingly mating with a recessed socket defined at said upper portion of said liquid container, wherein an inner diameter of said spray is downwardly and gradually increased, and a water exit is defined at a very top end of said spray pipe.
 7. The drinking mug with fountain, as recited in claim 5, wherein said spray pipe is straight shaped, and is adapted to be inserted into said port defined on said upper portion of said liquid container, wherein said port is conically shaped and integrally formed with said upper portion, and an apex orifice is defined at said conically shaped port.
 8. The drinking mug with fountain, as recited in claim 6 and claim 7, wherein said spray pipe is extended into a bottom surface of said liquid storage, and a spray head or a horn head is adapted to be coupled to a faucet of said spray pipe.
 9. The drinking mug with fountain, as recited in claim 1, wherein aninside cavity of said liquid storage is smaller than an inside cavity of said liquid container, and a bottom side edge of said inner cavity of said liquid storage is moveably connected to said liquid output duct, wherein said liquid output duct is rotatably inserted into a flat cylinder knob, wherein a sphere body is laterally connected to said flat cylinder knob, and said sphere body is sealedly inserted into said liquid storage via a sealing gasket for ensuring said liquid output duct communicative with said sphere body.
 10. The drinking mug with fountain, as recited in claim 8, wherein said liquid output duct is spiral shaped and entwined at outside of said liquid storage, said liquid output duct has a water exit having an elevation higher a height of said liquid storage. 